Orthodontic Treatment of Impacted Teeth. Adrian Becker
Читать онлайн.| Название | Orthodontic Treatment of Impacted Teeth |
|---|---|
| Автор произведения | Adrian Becker |
| Жанр | Медицина |
| Серия | |
| Издательство | Медицина |
| Год выпуска | 0 |
| isbn | 9781119565383 |
Case 4: Multi‐planar reconstruction for an incisor that is almost horizontal
The clinical aim was to learn why the right central incisor had refused to erupt, and to establish its exact location and anatomy and assess its proximity to other teeth and structures. The right central incisor was horizontally and sagitally re‐aligned in the axial (Figure 4.19a) and sagittal (Figure 4.19b) planes and the centre of the rotating tool was placed on its long axis in the coronal window (Figure 4.19c). Rotating the tool has revealed the tooth anatomy and interproximal contact areas. Figure 4.19(d) represents the cut produced by the rotating tool. In this case it demonstrates the point of contact with the lateral incisor (Animation 4.4) (orthodontic treatment by Dr Morris Strauss).
Fig. 4.17 Diagnosing resorption with multi‐planar reconstruction. The long axis of the lateral incisor from Figure 4.16 has been tilted to a vertical position in the coronal (c) and sagittal (b) planes. The rotating tool is placed on the tooth axis in the axial (a) plane. Window (d) shows the resorption in the disto‐palatal aspect.
Fig. 4.18 Diagnosing resorption with multi‐planar reconstruction (MPR). The axial (a) and the special tool window (b) are cropped from the MPR screen. The appearance in (b) reveals the resorption in the palatal aspect.
Inferior dental canal marking
Tracing the inferior alveolar and marking it in red is a helpful feature. Once marked, it is embedded in the volume and will show as a red dot or line in any cut that crosses its path. This method is used principally in planning the placement of dental implants. However, for much the same reason, it has value in respect of the inter‐relations between the inferior dental (ID) canal and a severely and deeply infra‐occluded/impacted molar or premolar, whose roots are developing in close proximity to it (Figure 4.20 and Case 5).
Fig. 4.19 Multi‐planar reconstruction for an incisor that is almost horizontal. The right central incisor was horizontally and sagitally re‐aligned in the axial (a) and sagittal (b) planes and the centre of the rotating tool is placed on its long axis in the coronal window (c). Window (d) represents the cut produced by the rotating tool, in which the contact point with the lateral incisor is demonstrated.
Case 5: Inter‐relations between the inferior dental canal and the first molar
The clinical aim was to find aetiological evidence for the failure to erupt of the first mandibular molar on the left side. The first impression from looking into the 3D bony view (Figure 4.20a) was that the ID canal was embraced by both distal and mesial roots (Animation 4.5). Such a condition is usually caused by some obstruction in the way of the eruption path of the tooth, as a result of which the roots continue to develop and, in this case, to embrace the canal. The obstruction can be caused by a physical blockage or by ankylosis preventing the natural eruption of the tooth. While exploring the 3D view, a resorption lesion was observed in the mesial root next to the furcation. Figure 4.20(b) shows clipping of the buccal side all the way to the furcation, leaving the volume with only the lingual side of #36 (19), thereby enhancing the lesion area view (Animation 4.6). The 3D module is a wonderful tool for gaining a general impression, but the investigation is actually carried out on the MPR screen. Figure 4.21 is a cropped MPR screen where the arrows indicate the ICRR lesion. A scroll through all three planes of the MPR screen can be viewed in Animation 4.7.
Fig. 4.20 First mandibular molar embracing inferior dental canal. (a) 3D bony view using bone peeling, sculpting and clipping. (b) 3D transparent view, buccal side clipped up to molar furcation, leaving only the lingual side for visualization. (c) Panoramic view with defining cross‐sectional grid. (d) A series of cross‐sectional slices showing the neurovascular bundle on each slice.
It is important to note that the majority of ICRR lesions originate at the cemento‐enamel junction (CEJ). When searching for aetiological evidence for an impacted tooth eruption failure, it is important to check the CEJ carefully, while rotating the tooth 360° as explained in Case 3, for an early‐stage ICRR.
With the earlier introduction of spiral CT and subsequently of CBCT, much debate was generated in relation to the justification for their use in orthodontics in general, and their value in the diagnosis and treatment planning of impacted teeth in particular. For planar radiography to provide a comparable level of positional information, a number of different